A system includes an image sensor configured to obtain consecutive image frames, an exposure parameter acquisition unit configured to obtain a current automatic exposure parameter of a current image frame of the consecutive image frames, and a fill light controller configured to adjust an illumination intensity of a fill light lamp for a next image frame based on the current automatic exposure parameter and a preset condition by increasing or decreasing the illumination intensity of the fill light lamp for the next image frame by a preset increment if the automatic exposure parameter does not satisfy the preset condition. The preset increment is pre-determined based on the current automatic exposure parameter.
Legal claims defining the scope of protection, as filed with the USPTO.
1. A system, comprising: an image sensor configured to obtain consecutive image frames; an exposure parameter acquisition unit configured to obtain a current automatic exposure parameter of a current image frame of the consecutive image frames; and a fill light controller configured to adjust an illumination intensity of a fill light lamp for a next image frame based on the current automatic exposure parameter and a preset condition by increasing or decreasing the illumination intensity of the fill light lamp for the next image frame by a preset increment if the automatic exposure parameter does not satisfy the preset condition, wherein the preset increment is pre-determined based on the current automatic exposure parameter.
2. The system of claim 1 , further comprising: an execution unit configured to direct the exposure parameter acquisition unit to repeatedly obtain the current automatic exposure parameter and to direct the fill light controller to repeatedly adjust the illumination intensity of the fill light lamp until the image sensor stops obtaining the consecutive image frames.
3. The system of claim 1 , wherein the preset increment is a specific preset increment corresponding to a specific automatic exposure parameter range, wherein the current automatic exposure parameter falls within the specific automatic exposure parameter range.
4. The system of claim 1 , wherein the preset increment corresponds to a number of consecutive adjustments of the illumination intensity of the fill light lamp prior to obtaining the current automatic exposure parameter from the current image frame.
5. The system of claim 4 , wherein the preset increment gradually decreases with an increasing number of consecutive adjustments of the illumination intensity of the fill light lamp prior to obtaining the current automatic exposure parameter from the current image frame.
6. The system of claim 1 , wherein the fill light controller is further configured to maintain the illumination intensity of the fill light lamp for the next image frame if the current automatic exposure parameter satisfies the preset condition.
7. The system of claim 1 , wherein the fill light controller comprises an illumination intensity controller configured to: determine a current illumination intensity of the fill light lamp for the current image frame; and calculate a next illumination intensity of the fill light lamp for the next image frame based on the current illumination intensity and the preset increment, if the automatic exposure parameter does not satisfy the preset condition.
8. The system of claim 1 , wherein the fill light controller comprises a power switch controller configured to: determine a current switch status associated with a power switch of the fill light lamp for the current image frame; turn on the power switch of the fill light lamp for the next image frame, if the current switch status is off and the automatic exposure parameter does not satisfy the preset condition; and turn off the power switch of the fill light lamp for the next image frame, if the current switch status is on and the automatic exposure parameter satisfies the preset condition.
9. The system of claim 1 , wherein the fill light controller comprises a power switch controller configured to: turn off a power switch of the fill light lamp when the image sensor stops obtaining the consecutive image frames.
10. The system of claim 1 , wherein the automatic exposure parameter is an automatic exposure time or an automatic exposure gain.
11. The system of claim 10 , wherein the fill light controller comprises a power switch controller configured to: turn off a power switch of the fill light lamp if the automatic exposure time is shorter than an automatic exposure time threshold or if the automatic exposure gain is lower than an automatic exposure gain threshold.
12. A movable object, comprising: an image sensor configured to obtain consecutive image frames; a fill light lamp configured to provide a fill light for the consecutive image frames; and a controller configured to: obtain a current automatic exposure parameter of a current image frame of the consecutive image frames; and adjust an illumination intensity of the fill light lamp for a next image frame based on the current automatic exposure parameter and a preset condition by increasing or decreasing the illumination intensity of the fill light lamp for the next image frame by a preset increment if the current automatic exposure parameter does not satisfy the preset condition, wherein the preset increment is pre-determined based on the current automatic exposure parameter.
13. The movable object of claim 12 , wherein the preset increment is a specific preset increment corresponding to a specific automatic exposure parameter range, wherein the automatic exposure parameter falls within the specific automatic exposure parameter range.
14. The movable object of claim 12 , wherein the preset increment corresponds to a number of consecutive adjustments of the illumination intensity of the fill light lamp prior to obtaining the current automatic exposure parameter from the current image frame.
15. The movable object of claim 14 , wherein the preset increment gradually decreases with an increasing number of consecutive adjustments of the illumination intensity of the fill light lamp prior to obtaining the current automatic exposure parameter from the current image frame.
16. The movable object of claim 12 , wherein the controller is further configured to: determine a current illumination intensity of the fill light lamp for the current image frame; and calculate a next illumination intensity of the fill light lamp for the next image frame based on the current illumination intensity and the preset increment, if the automatic exposure parameter does not satisfy the preset condition.
17. The movable object of claim 12 , wherein controller is further configured to: determine a current switch status associated with a power switch of the fill light lamp for the current image frame; turn on the power switch of the fill light lamp for the next image frame, if the current switch status is off and the automatic exposure parameter does not satisfy the preset condition; and turn off the power switch of the fill light lamp for the next image frame, if the current switch status is on and the automatic exposure parameter satisfies the preset condition.
18. The movable object of claim 12 , wherein the automatic exposure parameter is an automatic exposure time or an automatic exposure gain.
19. The movable object of claim 18 , wherein controller is further configured to: turn off a power switch of the fill light lamp if the automatic exposure time is shorter than an automatic exposure time threshold or the automatic exposure gain is lower than an automatic exposure gain threshold.
20. A method, comprising: obtaining consecutive image frames by an image sensor; obtaining, by a controller, a current automatic exposure parameter of a current image frame of the consecutive image frames; and adjusting, by the controller, an illumination intensity of a fill light lamp for a next image frame based on the current automatic exposure parameter and a preset condition by increasing or decreasing the illumination intensity of the fill light lamp for the next image frame by a preset increment if the current automatic exposure parameter does not satisfy the preset condition, wherein the preset increment is pre-determined based on the current automatic exposure parameter.
21. The method of claim 20 , wherein the preset increment is a specific preset increment corresponding to a specific automatic exposure parameter range, wherein the current automatic exposure parameter falls within the specific automatic exposure parameter range.
22. The method of claim 20 , wherein the preset increment corresponds to a number of consecutive adjustments of the illumination intensity of the fill light lamp prior to obtaining the current automatic exposure parameter from the current image frame.
23. The method of claim 22 , wherein the preset increment gradually decreases with an increasing number of consecutive adjustments of the illumination intensity of the fill light lamp prior to obtaining the current automatic exposure parameter from the current image frame.
24. The method of claim 20 , further comprising: determining a current illumination intensity of the fill light lamp for the current image frame; and calculating a next illumination intensity of the fill light lamp for the next image frame based on the current illumination intensity and the preset increment, if the automatic exposure parameter does not satisfy the preset condition.
25. The method of claim 20 , further comprising: determining a current switch status associated with a power switch of the fill light lamp for the current image frame; turning on the power switch of the fill light lamp for the next image frame, if the current switch status is off and the automatic exposure parameter does not satisfy the preset condition; and turning off the power switch of the fill light lamp for the next image frame, if the current switch status is on and the automatic exposure parameter satisfies the preset condition.
Cooperative Patent Classification codes for this invention. Click any code to explore related patents in that topic.
November 8, 2019
December 29, 2020
Browse 5M+ US patents with plain-English claim translations and AI-generated analysis.